Tripp Lite SU16000RT4UHW owner manual Mounting 4-Post Rackmount, Mounting Tower

Page 7

Mounting

Mounting (4-Post Rackmount)

The UPS includes rackmount shelf kits for 4-post rackmounting. The user must determine the fitness of hardware and procedures before mounting. If hardware and procedures are not suitable for your application, contact the manufacturer of your rack or rack enclosure. The procedures described in this manual are for common rack and rack enclosure types and may not be appropriate for all applications.

WARNING! The UPS system is extremely heavy. Use caution when lifting and mounting. User must properly stabilize the UPS when lifting and mounting. Note: The power module and battery module must be installed in separate shelves.

INSTALL THE 4U EXTERNAL BATTERY PACK BEFORE INSTALLING THE POWER MODULE. SEE THE INCLUDED BATTERY PACK OWNER'S MANUAL FOR INSTRUCTIONS AND WARNINGS.

1Connect the two segments of each shelf using the included attached screws and wing nuts. Leave the screws slightly loose so that the shelves can be adjusted in the next step.

2Adjust each shelf to fit the rack, then mount them in the lowest available space of the rack (above the battery pack) with the screws, nuts and washers provided. Note that the support ledges should face inward. Tighten the wingnuts that connect the shelf segments.

3Attach mounting ears to the front mounting holes of the UPS using the screws provided. The ears should face forward.

4Using one or more assistants, lift the UPS and slide it onto the mounting shelves. Attach the UPS to the rack by inserting the appropriate hardware through the mounting ears and into the rack rails.

1

3

2

4

Mounting (Tower)

Mount the UPS system in a vertical, tower position using 2-9USTAND base stands (optional). The user must determine the fitness of hardware and procedures before mounting.

WARNING! The UPS system is extremely heavy. Use caution when lifting and mounting. User must properly stabilize the UPS when lifting and mounting.

1Adjust the stands to a width of 6.93 inches (176 mm) for the power module. Adjust the stands to a width of 13.86 inches (352 mm) for the power module and external battery pack. Align the stands approximately 10 inches (254 mm) apart.

2Have one or more assistants help you place the UPS on its side in the stands. Place the UPS so that its control panel is on top and facing outward.

3Rotate the control panel for easy viewing while the UPS is mounted in tower position. Insert a small tool in the slots on either side of the control panel. Gently lever the panel out; rotate it; gently push the panel back into place.

1 Power Module

6.93 in. (176 mm)

1

 

10 in.

2

(254 mm)

 

1 Power Module +

1 Battery Pack

13.86 in. (352 mm)

1

 

BYPASS

O/P

 

AC/DC

DC/AC

I/P

 

 

BATTERY

OFF

 

SELECT

 

 

 

 

SETUP

ON

MUTE

 

3

 

7

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Contents SmartOnline Hot-Swappable Modular UPS Systems Important Safety Warnings Front Control Panel Power Module Detachable Power Distribution Unit PDU External Battery Pack with Detachable Power Cable Mounting Tower Mounting 4-Post RackmountConnect the Battery Pack to the Power Module Hardwiring CautionsAttach the PDU to the Power Module and Battery Pack Hardwire the PDU to a Utility Power SourceEPO Port Connection Additional Battery Pack ConnectionAdditional Battery Pack Connection Procedure USB and Serial Communication ConnectionFailed Self-Test Startup Self-TestNormal Operation On Battery AlarmAdditional Self-Test Output Voltage SelectionBypass Messages Overload MessagesShutdown Shutdown MessagesTo reattach the PDU, reverse the process listed above UPS Power Module RemovalHigh Voltage Risk of electrical shock High Voltage WarningsStorage ServiceWarranty Warranty RegistrationManual del Propietario Instrucciones de Seguridad Importantes Controles en el Panel Frontal Mute Select SetupMódulo de Potencia Características continuaciónUnidad de Distribución de Energía PDU Desmontable Módulo de Baterías Externas con Cable Desprendible Montaje Torre Montaje Bastidor de 4 PostesEncienda el UPS Conecte el Módulo de Baterías al Módulo de PotenciaProcedimiento para conectar Módulos de Baterías Adicionales Conexión de Comunicaciones USB y SerialConexión del Puerto EPO Conexión del Módulo de Baterías AdicionalAuto Prueba Fallida Auto Prueba de ArranqueOperación Normal Alarma de Modo de RespaldoAuto Prueba Adicional Selección del Voltaje de SalidaMensajes en Derivación Mensajes de Sobre CargaINT Charger Fail Mensajes de CierreRemoción del Modulo de Potencia del UPS Almacenaje Procedimiento de Derivación Manual continuaciónServicio Cumplimiento con las Normas de Números de Identificación Aviso de la FCC sobre la interferencia de Radio/TVManuel du propriétaire Importantes consignes de sécurité Setup Panneau de commandes avantModule dalimentation Caractéristiques suiteUnité de distribution dalimentation PDU amovible Bloc-batterie externe avec câble dalimentation amovible Montage en bâti à 4 montants MontageMontage en tour Connecter le bloc-batterie au module dalimentation Avertissements pour le câblageFixer la PDU au module dalimentation et au bloc-batterie Câbler la PDU à une source de courant de secteurConnexions optionnelles Échec de lauto-test Auto-test de démarrageFonctionnement suite Alarme de batterieFonctionnement normal Autre auto-test Sélection de la tension de sortieMessages de dérivation Messages de surchargeMessages darrêt Dépose du module dalimentation de londuleur Haute tension Risque de choc électrique Procédure de dérivation manuelle suiteConformité aux règlements Numéros didentification EntreposageRéparations Avis de la FCC sur les interférences radio et TV200807048

SU16000RT4U, SU16000RT4UHW specifications

The Tripp Lite SU16000RT4UHW is a high-capacity rack-mounted uninterruptible power supply (UPS) designed to provide reliable power protection for critical IT infrastructure. With a maximum output of 16,000 VA, this device is ideal for data centers, server rooms, and enterprise networks that demand continuous power and high performance. One of its standout features is its hybrid design, which allows for versatile installation in both rack and tower formats, making it suitable for various environments.

The SU16000RT4U offers advanced battery management technologies, ensuring long-lasting performance and efficiency. Its scalable architecture allows users to add additional battery packs for extended runtime, which is essential in situations where power outages can disrupt business operations. Equipped with smart features, it includes an LCD control panel that provides real-time information regarding battery status, load level, and other vital metrics, enabling users to monitor performance effortlessly.

Another significant characteristic of the SU16000RT4UHW is its compatibility with Tripp Lite's PowerAlert software. This software allows for advanced management of power conditions and remote monitoring via SNMP interface when paired with the optional SNMP/Web card. The UPS also includes a variety of outlets, including both NEMA and IEC standard configurations, catering to different equipment and ensuring adaptability.

Furthermore, this UPS is designed with enhanced protection features such as spike and surge suppression, which safeguards connected devices from electrical disturbances. The internal smart charging system also maximizes battery life by optimizing charging cycles based on usage patterns. This means that users can expect higher availability and a longer operational lifespan.

Constructed with durability in mind, Tripp Lite has included a fault-tolerant design that ensures uninterrupted power delivery even under extreme conditions. The SU16000RT4UHW's robust thermal management enhances cooling efficiency, contributing to reliable operation even in densely populated rack environments.

In conclusion, the Tripp Lite SU16000RT4UHW and its counterpart the SU16000RT4U are essential components for any organization that prioritizes reliable power management. With its high capacity, advanced features, and flexible configurations, it provides unmatched protection for critical IT equipment, ensuring business continuity in the face of electrical failures. Investing in such technology not only protects hardware but also secures data integrity and operational efficiency.